Effects of Dexamethasone or Celecoxib on Biliary Toxicity after Hepatic Arterial Infusion of 5-Fluorodeoxyuridine in a Canine Model

Liver fibrosis in vitro: Cell culture models and precision-cut liver slices

Chronic liver injury of various etiologies can cause liver fibrosis, which is characterized by the progressive accumulation of connective tissue in the liver. As no effective treatment for liver fibrosis is available yet, extensive research is ongoing to further study the mechanisms underlying the development of disease- or toxicity-induced liver fibrosis and to identify potential pro- or anti-fibrotic properties of compounds. This review gives an overview of the in vitro methods that are currently available for this purpose. The first focus is on cell culture models, since the majority of in vitro research uses these systems. Both primary cells and cell lines as well as the use of different culture matrices and co-culture models are discussed. Second, the use of precision-cut liver slices, which recently came into attention as in vitro model for the study of fibrosis, is discussed. The overview clearly shows that continuous optimization and adaptation have extended the potential of in vitro models for liver fibrosis during the past years. By combining the use of the different cell and tissue culture models, the mechanisms underlying multicellular fibrosis development can be studied in vitro and potential pro- or anti-fibrotic properties of compounds can be identified both on single liver cell types and in human liver tissue.

Intestinal tract injury by drugs: Importance of metabolite delivery by yellow bile road

Drug secretion into bile is typically considered a safe route of clearance. However, biliary delivery of some drugs or their reactive metabolites to the intestinal tract evokes adverse consequences due to direct toxic actions or indirect disruption of intestinal homeostasis. Biliary concentration of the chemotherapy agent 5-fluorodeoxyuridine (FUDR) and other compounds is associated with bile duct damage while enterohepatic cycling of antibiotics contributes to the disruptions of gut flora that produce diarrhea. The goal of this review is to describe key evidence that biliary delivery is an important factor in the intestinal injury caused by representative drugs. Emphasis will be given to 3 widely used drugs whose reactive metabolites are plausible causes of small intestinal injury, namely the nonsteroidal anti-inflammatory drug (NSAID) diclofenac, the immunosuppressant mycophenolic acid (MPA), and the chemotherapy agent irinotecan. Capsule endoscopy and other sensitive diagnostic techniques have documented a previously unappreciated, high prevalence of small intestinal injury among NSAID users. Clinical use of MPA and irinotecan is frequently associated such severe intestinal injury that dosage must be reduced. Observations from clinical and experimental studies have defined key events in the pathogenesis of these drugs, including roles for multidrug resistance-associated protein 2 (MRP2) and other transporters in biliary secretion and adduction of enterocyte proteins by reactive acyl glucuronide metabolites as a likely mechanism for intestinal injury. New strategies for minimizing the adverse intestinal consequences of irinotecan chemotherapy illustrate how basic information about key events in the biliary secretion of drugs and the nature of their proximate toxicants can lead to safer protocols for drugs.

Precision-cut fibrotic rat liver slices as a new model to test the effects of anti-fibrotic drugs in vitro

BACKGROUND/AIMS

Current cell culture models contributed significantly to the study of liver fibrosis and the testing of anti-fibrotic drugs but mimic the complex in vivo milieu poorly. Therefore, we evaluated fibrotic rat liver slices as a new, more physiologic in vitro model to test anti-fibrotic compounds.

METHODS

Precision-cut slices (8 mm diameter, 250 microm thickness) were prepared from fibrotic rat livers three weeks after bile-duct ligation and incubated for 0-48 h, during which viability and progression of the fibrotic process was evaluated. In addition, the effects of pentoxifylline, gleevec, and dexamethasone on mRNA expression of markers for fibrosis were determined.

RESULTS

Fibrotic liver slices remained viable during 48 h of incubation, with increasing alphaSMA and pro-collagen 1a1 mRNA expression, and alphaSMA and collagen protein content after prolonged incubation. Addition of pentoxifylline, gleevec, or dexamethasone during incubation dose-dependently inhibited pro-collagen-1a1 and alphaSMA mRNA expression after 24h of incubation without influencing slice viability.

CONCLUSIONS

Fibrotic liver slices are a promising tool to test anti-fibrotic drugs in vitro in a multicellular, fibrotic milieu, which cannot be achieved in vitro using other models. Importantly, this method may provide the opportunity to study anti-fibrotic compounds not only in animal but also in fibrotic human liver tissue.

Lack of therapeutic improvement of liver fibrosis in rats by dexamethasone in spite of ascites amelioration

Pathophysiology of liver fibrosis (LF) includes hepatic parenchymal cell destruction and connective tissue formation. Although dexamethasone has been used in the liver diseases, there is controversy over the beneficial effects of dexamethasone on LF. Previous studies showed that CCAAT/enhancer binding protein-beta (C/EBPbeta) activation contributes to hepatocyte regeneration and dissolution of fibrosis and that dexamethasone activates C/EBPbeta whereas C/EBPbeta-mediated gene induction by dexamethasone is antagonized by a corepressor. The present study investigated the possible therapeutic effect of dexamethasone for the treatment of LF in rats. We injected rats with multiple doses of dimethylnitrosamine (DMN) for 4 weeks and then used the LF rats to determine whether dexamethasone treatment therapeutically improved liver functions and resolved fibers accumulated in the liver. Dexamethasone (100 microg/kg, po, three times per week for 4 weeks) failed to restore the body weight gain and liver weight decreased by LF. The body weight gain reduced during LF was further decreased by dexamethasone treatment. Animals were subjected to blood biochemical, liver histopathological and immunochemical analyses. Although dexamethasone treatment significantly reduced ascites in LF rats, the plasma albumin and total protein levels decreased in fibrotic rats were not restored. Impaired liver functions during LF including elevated plasma aminotransferases and bilirubin levels along with GSTA2 repression were not recovered by dexamethasone. Dexamethasone failed to decrease the fibrosis score and to eliminate the extracellular matrix and alpha-smooth muscle actin accumulated in the fibrotic liver. The results of the present study showed that dexamethasone ameliorated ascites in LF rats but failed to improve the liver functions and fiber accumulation, and that the possible beneficial effect of dexamethasone might result from anti-inflammatory effect but not from liver improvement.

Morbidity of adjuvant hepatic arterial infusion pump chemotherapy in the management of colorectal cancer metastatic to the liver

BACKGROUND

Surgical resection remains the treatment of choice for patients with colorectal cancer metastatic to the liver. Hepatic arterial infusion pump (HAIP) chemotherapy in combination with surgical resection has been demonstrated in a recent study to improve disease-free and overall survival for patients with colorectal cancer metastatic to the liver. Other reports, however, have indicated significant toxicity related to HAIP chemotherapy in the form of biliary sclerosis. Thus, the value of adjuvant HAIP chemotherapy following hepatic resection or ablation remains controversial. The aim of this study was to examine the survival and toxicity in a single institutional experience with adjuvant HAIP chemotherapy.

METHODS

Review of a prospective hepatobiliary database was performed. HAIP were placed in the standard technique following resection and/or radiofrequency ablation (RFA) of all liver metastases. Patients received floxuridine (FUDR) via the HAIP at standard doses. Complications were graded according to a standard 5-point grading scale. Statistical analysis was performed by chi(2) test.

RESULTS

Thirty-four of 86 patients underwent placement of HAIP at the time of hepatic resection or ablation between January 1999 and November 2002. The HAIP group demonstrated a significantly greater (P <0.05) number (median 5 vs. 2) and size (median 5 cm vs. 3 cm) of hepatic lesions compared to the group without HAIP. The HAIP group experienced a greater frequency of complications (53% vs. 33%), with 6 (18%) patients in the HAIP group demonstrating biliary sclerosis. There were no deaths within 30 days of surgery. Median survival was similar in both groups (HAIP 20 months, no HAIP 24 months).

CONCLUSIONS

Patients in the HAIP group had significantly worse overall predictors of outcome in metastatic colorectal cancer, yet the median overall survival in both groups was similar. However, adjuvant HAIP chemotherapy was associated with significantly greater morbidity. Given the availability of newer active systemic agents and regimens, the value of adjuvant HAIP chemotherapy remains controversial.